CN104520555B - The controlling method of gas turbine cooling system, perform the control gear of the method and possess the gas turbine equipment of this control gear - Google Patents

Abstract

Gas turbine cooling system (30) of the present invention possesses: cool the pressurized air extracted out from air compressor (11) and become the cooler (31) of cooling-air; By the cooling-air compressor (34) that cooling-air supplies to the combustion barrel (13) of burner (12); To the IGV (35) that the flow of cooling-air regulates.The control gear (50) of this gas turbine cooling system possesses: according to the temperature of the cooling-air detected, determines the desired value configuration part (52) of the desired value mutually on duty about flow of cooling-air; The correction drive volume calculating section (53,54) of the correction drive volume that the flow deviation relative to this desired value mutually on duty obtaining the cooling-air making to detect reduces; By the driving instruction carry-out part (57) that the driving instruction corresponding with this correction drive volume exports to IGV.

Description

The controlling method of gas turbine cooling system, perform the control gear of the method and possess the gas turbine equipment of this control gear

Technical field

The present invention relates to for the gas turbine cooling system that the high-temperature portion connected with combustion gas in gas turbine is cooled controlling method, perform the control gear of the method and possess the gas turbine equipment of this control gear.

No. 2012-215127, the Japanese Patent Application that the application filed an application in Japan based on September 27th, 2012 and CLAIM OF PRIORITY, and its content is incorporated herein.

Background technique

Gas turbine possesses: compress extraneous gas and generate compressed-air actuated air compressor; Fuel is burnt in pressurized air and generates multiple burners of combustion gas; By the turbine of combustion gases drive.In gas turbine, under the combustion barrel of burner, the moving vane of turbine, stator blade etc. are exposed to the combustion gas of high temperature, therefore need to cool these high-temperature portion, thus protect these high-temperature portion, in order to avoid be subject to the impact of the heat of combustion gas.

The cooling system that the tail pipe (combustion barrel) disclosing an a kind of part for the high-temperature portion to gas turbine and burner in following patent documentation 1 cools.This cooling system possesses: the cooler cooled the pressurized air extracted out from air compressor; Pressurize to by the cooled pressurized air of this cooler, thus using this pressurized air as cooling-air to the cooling-air compressor that the tail pipe of burner is carried.

[at first technical paper]

[patent documentation]

[patent documentation 1] Japanese Unexamined Patent Publication 2000-265856 publication

Summary of the invention

[inventing the problem that will solve]

The high-temperature portion of requirement to the combustion barrel of burner etc. carries the cooling-air of sufficient flow, prevents the scaling loss of high-temperature portion.On the other hand, when increasing the flow of cooling-air, not only the power of cooling-air compressor increases, and also increases the heat-shift that pressurized air cools, the therefore decrease of power generation of gas turbine.In the cooling system described in above-mentioned patent documentation 1, the controlling method of the concrete cooling-air of the completely not open cooling of high-temperature portion and the efficiency of gas turbine for realizing gas turbine simultaneously.

Therefore, the present invention for solving above-mentioned problem, its object is to provide a kind of can carry out the high-temperature portion of gas turbine sufficient cooling and the controlling method of the gas turbine cooling system that the generating efficiency of gas turbine can be made to improve, perform the control gear of the method and possess the gas turbine equipment of this control gear.

[for solving the scheme of problem]

In controlling method as the gas turbine cooling system of a form of the present invention, this gas turbine cooling system possesses: cool the pressurized air that the air compressor from gas turbine is extracted out and become the cooler of cooling-air; By the cooling-air compressor that described cooling-air supplies to the high-temperature portion connected with combustion gas in gas turbine, the controlling method of described gas turbine cooling system performs: desired value setting operation, wherein, use desired value setting function, determine the desired value corresponding with the temperature of the described cooling-air detected, this desired value setting function determines the relation of the desired value mutually on duty about flow of the described cooling-air supplied to described high-temperature portion and the temperature of described cooling-air; Revise drive volume and calculate operation, wherein, the correction drive volume that the described flow deviation relative to described desired value mutually on duty obtaining the described cooling-air making to detect reduces, as the correction drive volume of the cooling air volume regulator regulated the flow of described cooling-air; Driving instruction exports operation, wherein, the driving instruction corresponding with described correction drive volume is exported to described cooling air volume regulator.

When regulate cooling air volume regulator drive volume and to make the flow of the cooling-air mode becoming this desired value mutually on duty control time, the flow of the cooling-air that the high-temperature portion to gas turbine is carried roughly becomes this desired value.But, namely allow to control the flow of cooling-air to high-temperature portion conveying, if the flow that the temperature of uncontrollable one-tenth and this cooling-air matches, then below the temperature that also high-temperature portion cannot be managed into regulation.Therefore, in this controlling method, by determining the desired value that the flow corresponding with the temperature of the cooling-air carried to high-temperature portion is mutually on duty, and to make the flow mode becoming this desired value mutually on duty control, the flow of cooling-air is made to become the desired value of the flow corresponding with the temperature of this cooling-air thus, thus below temperature high-temperature portion being managed into regulation.In addition, in this controlling method, without the need to making the cooling-air to high-temperature portion conveying unnecessarily increase, therefore, it is possible to improve the generating efficiency of gas turbine.

In the controlling method of described gas turbine cooling system, can also be configured to, described desired value setting function determine the temperature of described desired value and described cooling-air and gas turbine export mutually on duty between relation, in described desired value setting operation, use described desired value to set function, determine to export corresponding desired value mutually on duty with the temperature of the described cooling-air detected and the described gas turbine that obtains from outside.

When gas turbine exports rising mutually on duty, the heat that high-temperature portion heats is increased.Therefore, in this controlling method, by determining to export corresponding desired value mutually on duty with gas turbine, making gas turbine export rising mutually on duty, even if increase the heat that high-temperature portion heats, high-temperature portion also can be made to become below the temperature of regulation.

In the controlling method of any one above gas turbine cooling system, can also be configured to, perform leading drive volume setting operation, in this leading drive volume setting operation, the drive volume of the relation representing the temperature of described cooling-air and the drive volume of described cooling air volume regulator is used to set function, determine the leading drive volume corresponding with the temperature of the described cooling-air detected, export in operation in described driving instruction, export and set in operation the driving instruction that the described leading drive volume determined adds described correction drive volume and the drive volume that obtains is corresponding in described leading drive volume.

In this case, can also be configured to, described drive volume setting function determines that the temperature of described cooling-air and gas turbine export the relation between the drive volume of mutually on duty and described cooling air volume regulator, in described leading drive volume setting operation, use described drive volume to set function, determine to export corresponding described leading drive volume mutually on duty with the temperature of the described cooling-air detected and the described gas turbine that obtains from outside.

In this controlling method, by carrying out the look-ahead employing leading drive volume, the responsiveness of the change of the cooling air delivery accompanied with the variation of various parameter can be improved.

In control gear as the gas turbine cooling system of a form of the present invention, this gas turbine cooling system possesses: cool the pressurized air that the air compressor from gas turbine is extracted out and become the cooler of cooling-air; By the cooling-air compressor that described cooling-air supplies to the high-temperature portion connected with combustion gas in gas turbine, the control gear of described gas turbine cooling system has: desired value configuration part, it uses desired value setting function, determine the desired value corresponding with the temperature of the described cooling-air detected, this desired value setting function determines the relation of the desired value mutually on duty about flow of described cooling-air and the temperature of described cooling-air; Revise drive volume calculating section, the correction drive volume that its described flow deviation relative to described desired value mutually on duty obtaining the described cooling-air making to detect reduces, as the correction drive volume of the cooling air volume regulator regulated the flow of described cooling-air; Driving instruction carry-out part, the driving instruction corresponding with described correction drive volume exports to described cooling air volume regulator by it.

In this control gear, also similarly determine the desired value that the flow corresponding with the temperature of the cooling-air carried to high-temperature portion is mutually on duty with aforesaid controlling method, and to make the flow mode becoming this desired value mutually on duty control.Thereby, it is possible to make the flow of cooling-air become the desired value of the flow corresponding with the temperature of this cooling-air, below the temperature that high-temperature portion can be managed into regulation.And, the generating efficiency of gas turbine can be improved.

In the control gear of described gas turbine cooling system, can also be configured to, described desired value setting function determine the temperature of described desired value and described cooling-air and gas turbine export mutually on duty between relation, described desired value configuration part uses described desired value to set function, determines to export corresponding desired value mutually on duty with the temperature of the described cooling-air detected and the described gas turbine that obtains from outside.

In this control gear, determine to export corresponding desired value mutually on duty with gas turbine, therefore gas turbine exports rising mutually on duty, even if increase the heat that high-temperature portion heats, below the temperature that also high-temperature portion can be managed into regulation.

In the control gear of any one above gas turbine cooling system, can also be configured to, described desired value setting function is the function representing the relation described desired value being increased along with the temperature rising of described cooling-air.

In the control gear of any one above gas turbine cooling system, can also be configured to, the control gear of described gas turbine cooling system has leading drive volume configuration part, this leading drive volume configuration part uses the drive volume of the relation representing the temperature of described cooling-air and the drive volume of described cooling air volume regulator to set function, determine the leading drive volume corresponding with the temperature of the described cooling-air detected, the driving instruction that the drive volume that described driving instruction carry-out part output adds described correction drive volume with the described leading drive volume that described leading drive volume configuration part is determined and obtains is corresponding.

In this case, can also be configured to, described drive volume setting function determines that the temperature of described cooling-air and gas turbine export the relation between the drive volume of mutually on duty and described cooling air volume regulator, described leading drive volume configuration part uses this drive volume to set function, determines to export corresponding leading drive volume mutually on duty with the temperature of the described cooling-air detected and the described gas turbine that obtains from outside.

In this control gear, by carrying out the look-ahead employing leading drive volume, the responsiveness of the change of the cooling air delivery accompanied with the variation of various parameter can be improved.

Gas turbine equipment as a form of the present invention possesses: any one above control gear; Described gas turbine cooling system, it possess the temperature detecting the described cooling-air supplied to described high-temperature portion thermometer, detect the described flow of described cooling-air flow meter mutually on duty mutually on duty, described cooler, described cooling-air compressor and described cooling air volume regulator; Described gas turbine.

In this gas turbine equipment, owing to possessing any one above control gear, therefore, it is possible to make the flow of cooling-air become the desired value of the flow corresponding with the temperature of this cooling-air, below the temperature that high-temperature portion can be managed into regulation.And, the generating efficiency of gas turbine can be improved.

In described gas turbine equipment, can also be configured to, described cooler has makes the heat exchanger that pressurized air and cooling medium from described air compressor carry out heat exchange, Jie's quality adjustor regulated the flow of described cooling medium, described control gear has driving instruction carry-out part, this driving instruction carry-out part becomes the desired value of the temperature of described cooling-air and the mode of temperature target to make the temperature of the described cooling-air supplied to described high-temperature portion, exports driving instruction to described Jie's quality adjustor.

In this case, can also be configured to, described control gear has temperature target configuration part, the temperature target that this temperature target configuration part uses the desired value of the temperature representing the described cooling-air supplied to described high-temperature portion and temperature target and gas turbine to export relation mutually on duty sets function, determines to export corresponding described temperature target mutually on duty with the described gas turbine obtained from outside.

In this gas turbine equipment, the temperature of the cooling-air to high-temperature portion supply is made roughly to become temperature target, therefore, it is possible to make the control stabilization of cooling air delivery.

In addition, give an account of in the gas turbine equipment of quality adjustor to some extent at described cooling apparatus, can also be configured to, the described heat exchanger of described cooler is that air is carried out the radiator of heat exchange as described cooling medium with described pressurized air, and described Jie's quality adjustor of described cooler is the fan of the flow that can regulate the described air carried to described radiator.

In this case, can also be configured to, described gas turbine equipment possesses fuel preheater, and this fuel preheater makes air from described fan to described radiator that carry from carry out heat exchange with the fuel carried to the burner of described gas turbine, heats this fuel.In this gas turbine equipment, the generating efficiency of gas turbine can be improved.

In addition, in this case, can also be configured to, described gas turbine equipment possesses: by carrying out heat exchange with the combustion gas of discharging from described gas turbine and vaporific heat recovery boiler; The first fuel preheater making air from described fan to described radiator that carry from and the fuel carried to the burner of described gas turbine carry out heat exchange to heat this fuel; Make described fuel and the steam that produces in described heat recovery boiler or carried out by the water after heating the second fuel preheater that heat exchange heats this fuel.In this gas turbine equipment, the generating efficiency of gas turbine can be improved.

Give an account of in any one gas turbine equipment of quality adjustor to some extent at described cooling apparatus, can also be configured to, described gas turbine equipment possesses heat recovery boiler, this heat recovery boiler produces steam by carrying out heat exchange with the combustion gas of discharging from described gas turbine, the described heat exchanger of described cooler is that the water carried to described heat recovery boiler is carried out the boiler water preheater of heat exchange as described cooling medium with described pressurized air, described Jie's quality adjustor of described cooler is the water regulator that the flow of the described water of boiler water preheater conveying described in subtend carries out regulating.

In this gas turbine equipment, can cool pressurized air, and the generating efficiency of gas turbine can be improved.

[invention effect]

In the present invention, the temperature of the high-temperature portion of gas turbine can be suppressed to below regulation, and the generating efficiency of gas turbine can be improved.

Accompanying drawing explanation

Fig. 1 is the system diagram of the gas turbine equipment in one embodiment of the present invention.

Fig. 2 is the explanatory drawing of the differential pressure target value setting function represented in one embodiment of the present invention.

Fig. 3 is the explanatory drawing of the leading drive volume setting function represented in one embodiment of the present invention.

Fig. 4 is the explanatory drawing of the temperature target setting function represented in one embodiment of the present invention.

Fig. 5 is the time diagram of the action of each several part of the gas turbine equipment represented in one embodiment of the present invention etc.

Fig. 6 is the system diagram of the gas turbine equipment in the first variation of one embodiment of the present invention.

Fig. 7 is the system diagram of the gas turbine equipment in the second variation of one embodiment of the present invention.

Embodiment

Below, with reference to Fig. 1 ~ Fig. 5, a mode of execution of the gas turbine equipment of gas turbine of the present invention is described in detail.

As shown in Figure 1, the gas turbine equipment of present embodiment possesses: gas turbine 10; To the waste heat recovery plant 20 that the heat of the combustion gas of discharging from gas turbine 10 reclaims; To the gas turbine cooling system (hreinafter referred to as cooling system) 30 that the high-temperature portion in gas turbine 10 cools; To the control gear 50 that cooling system 30 controls; And host control device 70.

Gas turbine 10 possesses: compress extraneous gas and generate compressed-air actuated air compressor 11; The fuel F from fuel supply source is made to burn in pressurized air and generate multiple burners 12 of combustion gas; And by the turbine 15 of combustion gases drive.The rotor of turbine 15 is connected with and carries out by the rotation of this rotor the generator 19 that generates electricity.Multiple burner 12 centered by the rotor of turbine 15 circumferentially each other to be fixed on the housing of turbine 15 at equal intervals.This burner 12 has: the combustion barrel 13 carried in the combustion gas stream of turbine 15 by combustion gas; Burner oil and compressed-air actuated fuel feeder 14 in this combustion barrel 13.In this gas turbine 10, the combustion barrel 13 of burner 12, the moving vane of turbine 15 and stator blade become the high-temperature portion under the combustion gas being exposed to high temperature.The cooling system 30 of present embodiment supplies cooling-air to the combustion barrel 13 of the burner 12 in the high-temperature portion of gas turbine 10 and cools this combustion barrel 13.Therefore, in this combustion barrel 13, be formed through the path of cool air between the outer circumferential face of combustion barrel 13 and the inner peripheral surface of combustion barrel 13.This path of cool air at the outer circumferential side of combustion barrel 13 to the downstream side opening respectively of the flow direction of the upstream side of the flow direction of combustion gas and combustion gas.The opening in the downstream side of the flow direction of the combustion gas in combustion barrel 13 becomes the inflow entrance of cooling-air, and the opening of the upstream side of the flow direction of combustion gas becomes the exhaust port of cooling-air.Flow into after cooling-air in path of cool air carried out cooling to the wall of combustion barrel 13 from the opening in the downstream side of the flow direction of the combustion gas combustion barrel 13, flow out from the opening of the upstream side of the flow direction of the combustion gas combustion barrel 13, reclaimed by burner 12 as combustion air.

Waste heat recovery plant 20 possesses: by the heat exchange of the combustion gas of discharging from gas turbine 10 and water and vaporific heat recovery boiler 21; The steam turbine 22 driven by the steam produced in heat recovery boiler 21; The steam of driving steam turbine 22 is made to be back into the condenser 23 of water; Make the raw water service pump 24 that the water in condenser 23 returns to heat recovery boiler 21.The rotor of steam turbine 22 is connected with and such as carries out by the rotation of this rotor the generator that generates electricity.

Cooling system 30 possesses: cool the pressurized air that the air compressor 11 from gas turbine 10 is extracted out and become the cooler 31 of cooling-air; This cooling-air is pressurizeed and pressurization cooling-air will be become and the cooling-air compressor 34 supplied to the combustion barrel 13 of burner 12.It should be noted that below, also exist the situation of pressurization cooling-air referred to as cooling-air.

Cooler 31 has the fan 33 that the pressurized air making to extract out from air compressor 11 passes through inner radiator 32 and carries air to this radiator 32.Fan 33 has the motor of band inverter, by changing the rotating speed of the motor of this band inverter, can regulate the flow of air.That is, this fan 33 is Jie's quality adjustors of the flow of the air that can regulate as compressed-air actuated cooling medium.The position adjacent with radiator 32 is provided with fuel preheater 49, and fuel preheater 49 makes carry out heat exchange with the pressurized air in radiator 32 and carried out heat exchange by the air after heating with the fuel F supplied to burner 12, heats fuel F.

Cooling-air compressor 34 is connected with motor 38, by the driving of this motor 38, cooling-air compressor 34 is driven.As the driving source of cooling-air compressor 34, use motor.But the driving source of cooling-air compressor 34 can be arbitrary driving source, such as, can with the rotor mechanical of turbine 15 to link and using turbine 15 as driving source.The IGV as cooling air delivery regulator (inletguidevane) 35 that the flow of the air sucked is regulated is provided with at the suction port of this cooling-air compressor 34.This IGV35 has blade in the suction port being configured in cooling-air compressor 34 36 and changes the driver 37 of angle of this blade 36.

Carrying in compressed-air actuated pressurized air lines from air compressor 11 to burner 12, way branches out cooling pressurized air lines 41 wherein.This cooling pressurized air lines 41 is connected with the radiator 32 of cooler 31.Radiator 32 is connected by cooling-air circuit 42 with the suction port of cooling-air compressor 34.The ejiction opening of cooling-air compressor 34 is connected by the cooling-air circuit 43 that pressurizes with the combustion barrel 13 of burner 12.The cooling system 30 of present embodiment also possesses: the thermometer 45 detected the temperature of the pressurization cooling-air by pressurization cooling-air circuit 43; The ejection of differential pressure, i.e. air compressor 11 between the pressure of the pressurization cooling-air in the compressed-air actuated pressure in cooling pressurized air lines 41 and pressurization cooling-air circuit 43 is pressed and the cooling-air that pressurizes to burner 12 entrance pressure between the differential manometer 46 that detects of differential pressure Δ P.

Control gear 50 has: the IGV control system 51 controlled the blade opening of the IGV35 as cooling air delivery regulator; To the fan control system 61 that the rotating speed of the fan 33 as Jie's quality adjustor in cooler 31 controls; Make the compressor control system (not shown) that the driving source of cooling-air compressor 34 and motor 38 etc. start.The driver 37 of IGV control system 51 couples of IGV35 exports the driving instruction of the drive volume (IGV aperture) representing this driver 37.This IGV control system 51 has: the differential pressure target value configuration part 52 determining the desired value of the compressed-air actuated pressure in cooling pressurized air lines 41 and the differential pressure Δ P between the pressure of the pressurization cooling-air in pressurization cooling-air circuit 43; Obtain the subtractor 53 of the deviation of differential pressure Δ P and the differential pressure target value detected by differential manometer 46; Obtain the PI controller 54 of the correction drive volume of the proportional integral actuating quantity corresponding with this deviation; Determine the leading drive volume configuration part 55 of leading drive volume (IGV aperture); Leading drive volume is added the adder 56 revised the drive volume after drive volume and export; By the IGV driving instruction carry-out part 57 that the driving instruction corresponding to the drive volume from adder 56 exports to the driver 37 of IGV35.It should be noted that, in this IGV control system 51, revise drive volume calculating section and there is subtractor 53 and PI controller 54.

As shown in Figure 2, differential pressure target value configuration part 52 has and represents that differential pressure target value and gas turbine export P and the differential pressure target value of relation between the temperature T of pressurization cooling-air detected by thermometer 45 sets function.This differential pressure target value setting function makes along with temperature T (the Ta < Tb < Tc) rising of pressurization cooling-air the function that differential pressure target value increases.In addition, differential pressure target value setting function gas turbine export P be such as export more than (b%) in about 50% time, raise along with this gas turbine exports P and make the function that differential pressure target value increases.This differential pressure target value configuration part 52 uses this differential pressure target value to set function, determines to export P with the gas turbine obtained from host control device 70 and differential pressure target value that the temperature T of pressurization cooling-air that detected by thermometer 45 is corresponding.

It should be noted that, the value that gas turbine exports P is such as transported by host control device 70.The value that value by the detected electric power of the watt meter etc. of the generation power detecting generator 19 exports P as gas turbine such as processes by host control device 70, and this generator 19 is connected with gas turbine 10.

As shown in Figure 3, leading drive volume configuration part 55 has and represents that leading drive volume (IGV aperture) and gas turbine export P and the leading drive volume of relation between the temperature T of pressurization cooling-air detected by thermometer 45 sets function.This leading drive volume setting function makes along with temperature T (the Ta < Tb < Tc) rising of pressurization cooling-air the function that leading drive volume increases.Leading drive volume setting function is when pressurizeing the temperature constant of cooling-air, export P from 0% to predetermined low output (a%) at gas turbine, make leading drive volume represent the function of the maximum and constant value at this forced air temperature.In addition, leading drive volume setting function is when pressurizeing the temperature constant of cooling-air, export P from low output (a%) to aforesaid middle output (b%) at gas turbine, export P rising along with this gas turbine and make the function that leading drive volume reduces.In addition, leading drive volume setting function is when pressurizeing the temperature constant of cooling-air, when gas turbine output P is more than middle output (b%), exports P rising and make the function that leading drive volume increases along with this gas turbine.Leading drive volume configuration part 55 uses this leading drive volume setting function, determines to export P with the gas turbine obtained from host control device 70 and leading drive volume that the temperature T of pressurization cooling-air that detected by thermometer 45 is corresponding.

Fan control system 61 pairs of fans 33 export the driving instruction of the drive volume (rotating speed) representing this fan 33.Fan control system 61 has: the temperature target configuration part 62 determining the desired value of the temperature T of the pressurization cooling-air detected by thermometer 45; Obtain the subtractor 63 of the temperature T of pressurization cooling-air and the deviation of temperature target detected by thermometer 45; Obtain the PI controller 64 of the correction drive volume of the proportional integral actuating quantity corresponding with this deviation; By the fans drive instruction carry-out part 65 that the driving instruction corresponding to this correction drive volume exports to fan 33.As shown in Figure 4, temperature target configuration part 62 has and represents that the temperature target that temperature target and gas turbine export the relation of P sets function.This temperature target setting function be gas turbine export P from 0% to aforesaid low output (a%), make the first temperature target that temperature target represents constant, when gas turbine output P is more than aforesaid middle output (b%), temperature target is made to represent the function of the second constant and higher than the first temperature target temperature target.In addition, this temperature target setting function is from low output (a%) to middle output (b%), increases and function that temperature target is raised along with gas turbine exports P.Temperature target configuration part 62 uses this temperature target to set function, determines to export temperature target corresponding to P with gas turbine.

It should be noted that, differential pressure target value described above setting function, leading drive volume setting function, temperature target setting function both can be the functions of the form of the mutual relation of each parameter of passing through type subrepresentation, also can be by each the function of sheet form of the mutual opening relationships of multiple numerical value of multiple parameter.

Then, according to the time diagram shown in Fig. 5, the action of cooling system 30 described above and control gear 50 thereof is described.

By starting arrangement, make the rotor of the rotor of turbine 15 and air compressor 11 start to rotate (S1), and their rotating speed is increased gradually.With the increase of the rotor speed of this air compressor 11, the compressed-air actuated pressure sprayed from air compressor 11 raises gradually, and this compressed-air actuated temperature also raises gradually.When the rotor of turbine 15 and the rotor of air compressor 11 become the predetermined slow-speed of revolution, by carrying out the instruction of the compressor control system (not shown) of self-control device 50, cooling-air compressor 34 is started, and make the blade 36 of IGV35 start to open (S2) by the driving instruction of the IGV control system 51 of carrying out self-control device 50.Then, the aperture (hreinafter referred to as IGV aperture) of the blade 36 of IGV35 becomes standard-sized sheet (100%), or becomes the maximum opening (S3) in the aperture corresponding with the temperature T detected by thermometer 45 now.

When cooling-air compressor 34 starts and the blade 36 of IGV35 starts to open (S2), the pressurized air from air compressor 11 is supplied by cooling pressurized air lines 41, cooling-air circuit 42 and pressurization cooling-air circuit 43 combustion barrel 13 to burner 12.Now, the fan 33 also unstart of cooler 31.In this stage, the compressed-air actuated temperature after the temperature of the air in the cooler outlet temperature of this air, i.e. cooling-air circuit 42 has just sprayed with from air compressor 11 is roughly the same.Further, the pressurization that the temperature in the inlet temperature of the burner 12 of this air, the pressurization cooling-air circuit 43 that namely detected by thermometer 45 is carried out due to cooling-air compressor 34 and higher than cooler outlet temperature.

Afterwards, the burner 12 to gas turbine 10 supplies fuel, and this fuel lights a fire (S4) in the combustion barrel 13 of burner 12.Fuel feed to gas turbine supply increased to the load operation of gas turbine 10 gradually from this moment.

When inlet temperature in the burner 12 of air, the temperature T of air namely detected by thermometer 45 become fan cranking temperature, export the driving instruction of the starting representing fan 33 from the fans drive instruction carry-out part 65 of control gear 50, fan 33 is started (S5).When fan 33 starts, the pressurized air passed through in the radiator 32 of cooler 31 carries out heat exchange with the air from fan 33, thus by this pressure-air cooling.This pressurized air flows in cooling-air circuit 42 as cooling-air.Consequently, temperature, the i.e. inlet temperature of pressurizeing in the burner of cooling-air of the pressurization cooling-air in the temperature of the cooling-air in cooling-air circuit 42, i.e. cooler outlet temperature and pressurization cooling-air circuit 43 all temporarily reduce.But, the pass that the compressed-air actuated temperature sprayed from air compressor 11 in the increase with air compressor 11 rotor speed raises is fastened, and the cooler outlet temperature of cooling-air and the burner inlet temperature of pressurization cooling-air also start to raise again.

When the temperature T of the air detected by thermometer 45 becomes fan cranking temperature, the fan control system 61 of control gear 50 as described above, makes fan 33 start, and starts the control (S5) of rotating speed of this fan 33.Input gas turbine from host control device 70 to the temperature target configuration part 62 of fan control system 61 and export P0%.Temperature target configuration part 62 serviceability temperature desired value setting function (with reference to Fig. 4), exports temperature target i.e. the first temperature target exporting pressurization cooling-air corresponding to P0% with gas turbine.The subtractor 63 of fan control system 61 obtains the temperature T of the pressurization cooling-air detected by thermometer 45 and the deviation of the first temperature target, and is exported by the PI controller 64 of this deviation to fan control system 61.This PI controller 64 obtains the correction drive volume of the proportional integral actuating quantity corresponding with this deviation, and it is exported to fan driving instruction carry-out part 65.Driving instruction corresponding to this correction drive volume exports to fan 33 by fans drive instruction carry-out part 65.Consequently, the temperature of the pressurization cooling-air detected by thermometer 45 roughly becomes the first temperature target.

After the rotor speed of turbine 15 and the rotor speed of air compressor 11 become 100% (S6) and through the stipulated time, generator 19 is merged in outside electric power system, and electric power system load, i.e. gas turbine export P and start to increase (S7).

When gas turbine output P becomes aforesaid low output (a%), the blade opening being started IGV35 by the IGV control system 51 of control gear 50 controls (S8).Leading drive volume configuration part 55 to IGV control system 51 inputs the temperature T of pressurization cooling-air that the gas turbine from host control device 70 exports P and detected by thermometer 45.Leading drive volume configuration part 55 uses leading drive volume to set function (with reference to Fig. 3), determines to export with gas turbine the leading drive volume that the temperature T of P and the cooling-air that pressurizes is corresponding, and it is exported to adder 56.The temperature T of the pressurization cooling-air exporting P with the above action gas turbine also inputted to the differential pressure target value configuration part 52 of IGV control system 51 concurrently from host control device 70 and detected by thermometer 45.Differential pressure target value configuration part 52 uses differential pressure target value to set function (with reference to Fig. 2), determines to export with gas turbine the differential pressure target value that the temperature T of P and the cooling-air that pressurizes is corresponding, and is exported.The subtractor 53 of IGV control system 51 obtains the deviation of this differential pressure target value and the differential pressure Δ P detected by differential manometer 46, and is exported by the PI controller 54 of this deviation to IGV control system 51.This PI controller 54 obtains the correction drive volume of the proportional integral actuating quantity corresponding with this deviation, and it is exported to adder 56.The leading drive volume exported from leading drive volume configuration part 55 is added with the correction drive volume exported from PI controller 54 by adder 56, and the drive volume obtained by this addition is exported.IGV driving instruction carry-out part 57 exports with the driver 37 of the driving instruction corresponding to the drive volume exported from adder 56 to IGV35.Consequently, IGV aperture becomes the aperture that the drive volume that represents with driving instruction matches.

Namely, in the present embodiment, determine the leading drive volume of IGV35 and feedforward control is carried out to the flow of pressurization cooling-air, and there is based on the flow with pressurization cooling-air the differential pressure Δ P of dependency relation, feedback control is carried out to the flow of pressurization cooling-air.

It should be noted that, leading drive volume setting function (with reference to Fig. 3) is gas turbine output P is from low output (a%) to middle output (b%), exports P rising as described above and make the function that leading drive volume reduces along with gas turbine.Therefore, gas turbine output P is from low output (a%) to middle output (b%), the leading drive volume determined by this leading drive volume setting function works, and exports P rising and IGV aperture is reduced along with gas turbine.

In addition, the temperature target setting function (with reference to Fig. 4) that fan control system 61 has is gas turbine output P is from low output (a%) to middle output (b%), the function along with gas turbine output P rising, temperature target being raised as described above.Therefore, when gas turbine output P becomes low output (a%), from this low output (a%) to middle output (b%), raise and temperature rising (S9) of the temperature of cooling-air and pressurization cooling-air along with gas turbine exports P.

The leading drive volume setting function (with reference to Fig. 3) that IGV control system 51 has is when gas turbine output P is more than middle output (b%), makes the function driving quantitative change large in advance as described above along with gas turbine exports P liter.In addition, differential pressure target value setting function (Fig. 2) that IGV control system 51 has is when gas turbine output P is more than middle output (b%), exports P rising as described above and make the function that differential pressure target value becomes large along with gas turbine.That is, when gas turbine output P is more than middle output (b%), along with gas turbine output P rising, leading drive volume and differential pressure target value become large.Therefore, when gas turbine output P becomes more than middle output (b%), along with gas turbine output P rising, IGV aperture becomes large.In other words, when gas turbine output P is more than middle output (b%), reduce and IGV aperture reduction (S10) along with gas turbine exports P.

In addition, the temperature target setting function (with reference to Fig. 4) that fan control system 61 has is when gas turbine output P is more than middle output (b%), represents the function of the second constant and higher than the first temperature target temperature target.Therefore, when gas turbine output P becomes more than middle output (b%), the temperature of pressurization cooling-air roughly becomes the second temperature target (S11).

After gas turbine exports and exceedes middle output (b%), to gas turbine 10 supply fuel feed reduce and again become middle output (b%) below time, under the control of IGV control system 51, reduce and the aperture of the blade 36 of IGV35 change large (S12) along with gas turbine exports P, and under the control of fan control system 61, reduce and temperature reduction (S13) of the temperature of cooling-air and pressurization cooling-air along with gas turbine exports P.

When gas turbine export P reduce further and become low output (a%) below time, under the control of IGV control system 51, IGV aperture becomes 100% again, or the maximum opening (S14) become in the aperture corresponding with the temperature T detected by thermometer 45 now, and under the control of fan control system 61, the temperature of pressurization cooling-air becomes the roughly the first temperature target (S15) again.

And, after the fuel supply supplied to gas turbine 10 stops, (S16) is through the stipulated time, under the control of IGV control system 51, IGV aperture becomes 0%, i.e. full cut-off (S17), and cooling-air compressor 34 stops, under the control of fan control system 61, fan 33 stops (S18).

As described above, the flow of the cooling-air carried with the combustion barrel 13 to burner 12 has dependency relation to differential pressure Δ P between the pressure of the pressurization cooling-air that the ejection of differential pressure Δ P, i.e. air compressor 11 between the pressure of the pressurization cooling-air in the compressed-air actuated pressure in cooling pressurized air lines 41 and pressurization cooling-air circuit 43 is pressed and carried to the combustion barrel 13 of burner 12.Therefore, when controlling in the mode making this differential pressure Δ P become differential pressure target value when regulating IGV aperture, the flow of the cooling-air that the combustion barrel 13 to burner 12 is carried also becomes the flow of the regulation matched with differential pressure target value.But, namely allow to the flow controlling the cooling-air carried to the combustion barrel 13 of burner 12, if the flow that the temperature of uncontrollable one-tenth and this cooling-air matches, then within also combustion barrel 13 cannot being managed into the temperature of regulation.

Therefore, in the present embodiment, determine the differential pressure target value corresponding with the temperature of the pressurization cooling-air supplied to combustion barrel 13, and control in the mode making differential pressure Δ P become target differential pressure Δ P, make the desired value that the flow of pressurization cooling-air becomes corresponding with the temperature of this pressurization cooling-air thus, thus below the temperature being become by the temperature treatment of combustion barrel 13 combustion barrel 13 not occur to damage.In addition, in the present embodiment, without the need to making the cooling-air carried to combustion barrel 13 unnecessarily increase, therefore, it is possible to improve the generating efficiency of gas turbine 10.

When gas turbine 10 becomes more than middle output (b%), if increase and gas turbine output P increase to the fuel feed of gas turbine 10 supply, then the heat that combustion barrel 13 heats is increased.Therefore, in the present embodiment, increase differential pressure target value with gas turbine exports the increase of P, and increase the leading drive volume of IGV35, increase the flow of the pressurization cooling-air supplied to this combustion barrel 13, thus suppress the temperature of combustion barrel 13 to rise.

In addition, in the present embodiment, there is based on the flow with pressurization cooling-air the differential pressure Δ P of dependency relation, carry out the feedback control of the flow of pressurization cooling-air, and determine the leading drive volume of IGV35, feedforward control is carried out to the flow of pressurization cooling-air, therefore, it is possible to the responsiveness that the flow improving the pressurization cooling-air that the variation that exports the various parameters such as P with the pressurization temperature of cooling-air or gas turbine is accompanied changes.

In addition, in the present embodiment, blow from the fan 33 of cooler 31, utilize and to carry out heat exchange with pressurized air and by the heat of the air after heating, the fuel utilizing fuel preheater 49 opposed firing device 12 to supply carries out preheating, therefore, it is possible to improve the generating efficiency of gas turbine 10 further.

But in the starting process or stopped process of gas turbine 10, compared with load operation, the pressure of pressurization cooling-air reduces.Therefore, in the present embodiment, in this starting process or stopped process, in order to ensure combustion barrel 13 cooling needed for the flow of pressurization cooling-air and temperature, IGV aperture is made to become standard-sized sheet (100%), or the maximum opening become in the aperture corresponding with the temperature T detected by thermometer 45 now, and reduce the temperature of pressurization cooling-air and increase the flow of the pressurization cooling-air of low temperature.

It should be noted that, in starting process or stopped process, even if do not reduce the temperature of pressurization cooling-air, as long as make IGV aperture become standard-sized sheet (100%), or the maximum opening become in the aperture corresponding with the temperature T detected by thermometer 45 now, just can be cooled to below set point of temperature by the combustion barrel 13 of burner 12.But if do not reduce the temperature of pressurization cooling-air, then need the flow increasing pressurization cooling-air, the necessity that therefore must increase cooling-air compressor 34 sucks air quantity, makes cooling-air compressor 34 maximize, thus equipment cost increases.Therefore, in the present embodiment, in starting process or stopped process, reduce the temperature of pressurization cooling-air, the necessity reducing cooling-air compressor 34 thus sucks air quantity, thus can suppress maximization and the equipment cost of cooling-air compressor 34.

" the first variation "

Then, based on Fig. 6, the first variation with the device-dependent above-mentioned mode of execution of gas turbine is described.

In the above-described embodiment, the fuel preheater 49 heated fuel F is set in the position that the radiator 32 with cooler 31 is adjacent.In this variation, also be provided with and make the fuel F after being heated by this fuel preheater (the first fuel preheater) 49 with the steam produced in heat recovery boiler 21 or carried out heat exchange by the water after heating, to the fuel preheater (the second fuel preheater) that fuel F heats further.

Above, in this variation, blow from the fan 33 of cooler 31, utilize and carry out heat exchange with pressurized air and by the heat of the air after heating, fuel F heated, and utilize the steam that produced by heat recovery boiler 21 or come to heat fuel F further by the heat of the water after heating.Thereby, it is possible to improve the generating efficiency of gas turbine further.

" the second variation "

Then, based on Fig. 7, the second variation of the above-mentioned mode of execution of gas turbine equipment is described.

In the above-described embodiment, the heat exchanger of cooler 31 is radiator 32, and Jie's quality adjustor of cooler 31 is fan 33.In this variation, as the heat exchanger of cooler 26, replace radiator 32 and use boiler water preheater 27, this boiler water preheater 27 make to heat recovery boiler 21 supply boiler water and pressurized air carry out heat exchange, and, as Jie's quality adjustor of cooler 26, replace fan 33 and Water usage modulating valve (water regulator) 28, the flow of the boiler water of this water regulating valve 28 subtend boiler water preheater 27 supply regulates.Therefore, in the control gear 50a of this variation, replace fan control system 61 and the runoff investigation valve control system 61a exporting opening degree instruction to water regulating valve is set.

Above, in this variation, make to heat recovery boiler 21 supply boiler water and pressurized air carry out heat exchange, therefore, it is possible to cool pressurized air, and preheating can be carried out to this boiler water.

" other variation "

In the above-described embodiment, differential manometer 46 is set, based on the differential pressure Δ P detected by this differential manometer 46, controls the flow of the cooling-air supplied to the combustion barrel 13 of burner 12.But, also differential manometer 46 can be replaced, the pressurized air extracted out from air compressor 11 is being arranged the flowmeter of the flow detecting the cooling-air supplied to burner 12 to the arbitrary position in the circuit that the combustion barrel 13 of burner 12 is carried, and based on the flow detected by this flowmeter, control the flow of the cooling-air supplied to the combustion barrel 13 of burner 12.In this case, the differential pressure target value configuration part 52 of IGV control system 51 becomes flow target value configuration part.And, this flow target value configuration part uses and represents that flow target value and gas turbine export P and the flow target value of relation between the temperature T of pressurization cooling-air detected by thermometer 45 sets function, determines to export the P flow target value corresponding with the temperature T of the cooling-air that pressurizes with gas turbine.Then, the subtractor 53 of IGV control system 51 obtains the deviation of this flow target value and the flow to be detected by flowmeter.

As shown above, in the present invention, the flow of the air that the combustion barrel 13 to burner 12 supplies is mutually on duty both can be the flow of cooling-air, also can be the such as differential pressure Δ P etc. with the flow of this air with dependency relation.It should be noted that, the flow of cooling-air both can be volume flowrate, also can be mass flow rate.

In addition, in the above-described embodiment, in order to detect air compressor 11 ejection pressure and pressurization cooling-air to burner 12 entrance pressure between differential pressure Δ P and differential manometer 46 is set, but also can be detected the ejection pressure of air compressor 11 and the entrance pressure to burner 12 of pressurization cooling-air by the pressure meter individually arranged, and by control gear 50 or its pressure difference of 50a computing as differential pressure Δ P.

In addition, in the above-described embodiment, export mutually on duty as gas turbine, use by the value of the detected electric power of the watt meter etc. of the generation power detecting generator 19, this generator 19 is connected with gas turbine 10.But, in the present invention, as long as gas turbine output is mutually on duty export with gas turbine the value that P has the parameter of dependency relation, can be arbitrary value, such as can for the value of the fuel flow rate that supplies to gas turbine 10, according to the temperature in the combustion air inlet portion of the imaginary turbines 10 such as the operational situation of gas turbine 10 or make this temperature dimension be value after 1.

In the above embodiment, set temperature meter 45 on pressurization cooling-air circuit 43, but also can set temperature meter 45 on the cooling-air circuit 42 between cooler 26,31 and cooling-air compressor 34.

In addition, in the above embodiment, as cooling-air regulator, IGV35 is employed, as long as but the structure of the flow of the cooling-air that the high-temperature portion to gas turbine 10 can be regulated to supply, can be arbitrary structures.In addition, in the above embodiment, in cooling-air compressor 34, be provided with the IGV35 as cooling-air regulator, but this cooling air regulator both can be arranged on the upstream side of cooling-air compressor 34, also can be arranged on downstream side.

In addition, in the above embodiment, the combustion barrel 13 of cooling-air to burner 12 is supplied, as long as but in gas turbine 10 with the high-temperature portion of contacts combustion gases, can to arbitrary position supply cooling-air, such as, can to the supply such as the moving vane of turbine 15 or stator blade cooling-air.

[utilizability in industry]

In the present invention, the temperature of the high-temperature portion of gas turbine can be suppressed to below regulation, and the generating efficiency of gas turbine can be improved.

[symbol description]

10: gas turbine

11: air compressor

12: burner

13: combustion barrel

15: turbine

19: generator

20: waste heat recovery plant

21: heat recovery boiler

25: fuel preheater (the second fuel preheater)

27: boiler water preheater

28: water regulating valve

30: gas turbine cooling system

26,31: cooler

32: radiator

33: fan

34: cooling-air compressor

45: thermometer

46: differential manometer

49: fuel preheater (the first fuel preheater)

50: control gear

51:IGV control system

52: differential pressure target value configuration part

55: leading drive volume configuration part

57:IGV driving instruction carry-out part

61: fan control system

62: temperature target configuration part

65: fans drive instruction carry-out part

70: host control device

Claims (14)

1. a controlling method for gas turbine cooling system, this gas turbine cooling system possesses: cool the pressurized air that the air compressor from gas turbine is extracted out and become the cooler of cooling-air; By the cooling-air compressor that described cooling-air supplies to the high-temperature portion connected with combustion gas in gas turbine,

The controlling method of described gas turbine cooling system performs:

Desired value setting operation, wherein, use desired value setting function, determine the desired value corresponding with the temperature of the described cooling-air detected, this desired value setting function determines the relation of the desired value mutually on duty about flow of the described cooling-air supplied to described high-temperature portion and the temperature of described cooling-air;

Leading drive volume setting operation, wherein, use and represent the temperature of described cooling-air and function is set to the drive volume of the relation of the drive volume of the cooling air volume regulator that the flow of cooling-air regulates, determine the leading drive volume corresponding with the temperature of the described cooling-air detected;

Revise drive volume and calculate operation, wherein, the correction drive volume that the described flow deviation relative to described desired value mutually on duty obtaining the described cooling-air making to detect reduces, as the correction drive volume of described cooling air volume regulator;

Driving instruction exports operation, wherein, the driving instruction corresponding with described correction drive volume is exported to described cooling air volume regulator,

Export in operation in described driving instruction, export and set in operation the driving instruction that the described leading drive volume determined adds described correction drive volume and the drive volume that obtains is corresponding in described leading drive volume.

2. the controlling method of gas turbine cooling system according to claim 1, wherein,

Described desired value setting function determine the temperature of described desired value and described cooling-air and gas turbine export mutually on duty between relation, in described desired value setting operation, use described desired value to set function, determine to export corresponding desired value mutually on duty with the temperature of the described cooling-air detected and the described gas turbine that obtains from outside.

3. the controlling method of gas turbine cooling system according to claim 1 and 2, wherein,

Described drive volume setting function determines that the temperature of described cooling-air and gas turbine export the relation between the drive volume of mutually on duty and described cooling air volume regulator, in described leading drive volume setting operation, use described drive volume to set function, determine to export corresponding described leading drive volume mutually on duty with the temperature of the described cooling-air detected and the described gas turbine that obtains from outside.

4. a control gear for gas turbine cooling system, this gas turbine cooling system possesses: cool the pressurized air that the air compressor from gas turbine is extracted out and become the cooler of cooling-air; By the cooling-air compressor that described cooling-air supplies to the high-temperature portion connected with combustion gas in gas turbine,

The control gear of described gas turbine cooling system has:

Desired value configuration part, it uses desired value setting function, determine the desired value corresponding with the temperature of the described cooling-air detected, this desired value setting function determines the relation of the desired value mutually on duty about flow of described cooling-air and the temperature of described cooling-air;

Leading drive volume configuration part, it uses and represents the temperature of described cooling-air and set function to the drive volume of the relation of the drive volume of the cooling air volume regulator that the flow of cooling-air regulates, and determines the leading drive volume corresponding with the temperature of the described cooling-air detected;

Revise drive volume calculating section, the correction drive volume that its described flow deviation relative to described desired value mutually on duty obtaining the described cooling-air making to detect reduces, as the correction drive volume of described cooling air volume regulator;

Driving instruction carry-out part, the driving instruction corresponding with described correction drive volume exports to described cooling air volume regulator by it,

The driving instruction that the drive volume that described driving instruction carry-out part output adds described correction drive volume with the described leading drive volume that described leading drive volume configuration part is determined and obtains is corresponding.

5. the control gear of gas turbine cooling system according to claim 4, wherein,

Described desired value setting function determine the temperature of described desired value and described cooling-air and gas turbine export mutually on duty between relation, described desired value configuration part uses described desired value to set function, determines to export corresponding desired value mutually on duty with the temperature of the described cooling-air detected and the described gas turbine that obtains from outside.

6. the control gear of gas turbine cooling system according to claim 4, wherein,

Described desired value setting function is the function representing the relation described desired value being increased along with the temperature rising of described cooling-air.

7. the control gear of the gas turbine cooling system according to any one of claim 4 to 6, wherein,

Described drive volume setting function determines that the temperature of described cooling-air and gas turbine export the relation between the drive volume of mutually on duty and described cooling air volume regulator, described leading drive volume configuration part uses this drive volume to set function, determines to export corresponding leading drive volume mutually on duty with the temperature of the described cooling-air detected and the described gas turbine that obtains from outside.

8. a gas turbine equipment, it possesses:

Control gear according to any one of claim 4 to 7;

Described gas turbine cooling system, it possess the temperature detecting the described cooling-air supplied to described high-temperature portion thermometer, detect the described flow of described cooling-air flow meter mutually on duty mutually on duty, described cooler, described cooling-air compressor and described cooling air volume regulator;

Described gas turbine.

9. gas turbine equipment according to claim 8, wherein,

Described cooler has makes the heat exchanger that pressurized air and cooling medium from described air compressor carry out heat exchange, Jie's quality adjustor regulated the flow of described cooling medium,

Described control gear has driving instruction carry-out part, this driving instruction carry-out part becomes the desired value of the temperature of described cooling-air and the mode of temperature target to make the temperature of the described cooling-air supplied to described high-temperature portion, exports driving instruction to described Jie's quality adjustor.

10. gas turbine equipment according to claim 9, wherein,

Described control gear has temperature target configuration part, the temperature target that this temperature target configuration part uses the desired value of the temperature representing the described cooling-air supplied to described high-temperature portion and temperature target and gas turbine to export relation mutually on duty sets function, determines to export corresponding described temperature target mutually on duty with the described gas turbine obtained from outside.

11. gas turbine equipment according to claim 9, wherein,

The described heat exchanger of described cooler is that air is carried out the radiator of heat exchange as described cooling medium with described pressurized air, and described Jie's quality adjustor of described cooler is the fan of the flow that can regulate the described air carried to described radiator.

12. gas turbine equipment according to claim 11, wherein,

Described gas turbine equipment possesses fuel preheater, and this fuel preheater makes air from described fan to described radiator that carry from carry out heat exchange with the fuel carried to the burner of described gas turbine, heats this fuel.

13. gas turbine equipment according to claim 11, wherein,

Described gas turbine equipment possesses:

By carrying out heat exchange with the combustion gas of discharging from described gas turbine and vaporific heat recovery boiler;

The first fuel preheater making air from described fan to described radiator that carry from and the fuel carried to the burner of described gas turbine carry out heat exchange to heat this fuel;

Make described fuel and the steam that produces in described heat recovery boiler or carried out by the water after heating the second fuel preheater that heat exchange heats this fuel.

14. gas turbine equipment according to claim 9, wherein,

Described gas turbine equipment possesses heat recovery boiler, and this heat recovery boiler produces steam by carrying out heat exchange with the combustion gas of discharging from described gas turbine,

The described heat exchanger of described cooler is that the water carried to described heat recovery boiler is carried out the boiler water preheater of heat exchange as described cooling medium with described pressurized air, and described Jie's quality adjustor of described cooler is the water regulator that the flow of the described water of boiler water preheater conveying described in subtend carries out regulating.